DE2559615C3 - Method and device for producing piles from compacted concrete - Google Patents

Description

The invention relates to a method and an apparatus for producing piles from compacted material Concrete.

In the process, a propulsion pipe is first driven into the ground in the usual way, whereupon the Soil is removed from the jacking pipe, and the jacking pipe with the volume of the pile corresponding amount of concrete is filled. For the purpose of compressing the material filled into the propulsion pipe It is known from G B PS 3 98 050 to add an air cushion above the concrete column in the pipe form, and to apply a mechanical force to the pipe in the pull-out direction. After this When the concrete is poured in, the jacking pipe is sealed tightly and in the one above the concrete Compressed air is entered into the space of the propulsion pipe in order to build up a constant air cushion that of the concrete in the driving pipe

compressed in this way and the pressure acting in the pull-out direction is applied to the propulsion pipe. To the Propulsion pipe attacks a mechanical force acting in the pull-out direction, which is generated by the pressure of the Air cushion is supported.

From DE-PS 5 68 333 a method is known in which the propulsion pipe is not required with the entire The amount of concrete is completely filled, but rather certain amounts of concrete in chronological order entered and compressed by compressed air.

When entering each amount of concrete, the driving pipe must be opened and then closed to build up the air cushion required for compression by supplying compressed air. To the Enter the following amount of concrete, the air cushion must be relieved, the driving pipe opened and again closed and a new constant compressed air cushion built up.

The invention is based on the object that

to modify the former known method so that on the use of compressed air for the air cushion dispensed with and thus the effort required for the generation of compressed air is avoided that with simple means a reliable support when pulling out the propulsion pipe in the Ausziehriclitung is given without the risk that the propulsion pipe shoots out of the borehole, and that a firm connection between the concrete and the ground is guaranteed by lot

This object is achieved in a method according to the preamble of the main claim by the in its characterizing part specified features.

The atmospheric air cushion is mechanically compressed intermittently so that there is a pressure on the in the concrete column located in the jacking pipe, and after each compression pulse the air cushion Relaxed again to atmospheric pressure, and the jacking pipe becomes one that acts in the pull-out direction mechanical impact impulse given by a piston.

The device used to carry out the method is based on that in DE-PS 6 56 337 known embodiment, in which a sealingly movable in the axial direction in the propulsion pipe recorded plunger is arranged for the purpose of compacting the concrete. To compress the Concrete is entered into the closed jacking pipe above the plunger compressed air, below which Effect of the plunger moves down and compacts the concrete. After reaching the compression position of the plunger are arranged through the piston rod in the cover of the propulsion tube Valves open and the pressure cushion released into the open.

In a device according to the preamble of claim 2, this is characterized by the in the characterizing part specified features.

Claims 3 to 6 represent advantageous developments of the device according to claim 2.

In the case of a jacking pipe reaching into the groundwater, the method is further characterized by the in the characterizing part of claim 7 specified features.

The device used to carry out the method according to claim 7 is in one embodiment according to the preamble of claim 8 characterized by those in the characterizing part specified features. The claim 9 serves the advantageous development of the device according to Claim 8.

In particular in the production of piles with a relatively shallow depth, the invention is because of their Economic efficiency is advantageous, as only dredgers or cranes with a low load-bearing capacity that can withstand the weight of the Tube can correspond, must be used.

The invention can also be used in very narrow construction pits and in terrain that is difficult to drive on. the Device parts are very low in their acquisition costs and operate quietly without the operation is made more difficult and expensive by obstructive sound insulation capsules. By compacting the concrete by means of an atmospheric air cushion and the intermittent one caused by the impact pulses Shaking the pipe when retracting creates a very good compression and intimate interlocking of the Concrete with the soil surrounding the pile, as the concrete flows through the Air cushion is pressed into the ground. The jerky Rohrrückzuu namely causes a bulge and thus a significantly increased skin friction of the finished pile in the ground. According to the invention The compacted vibrating piles produced have a considerably greater load-bearing capacity than poured concrete piles.

Another important advantage of the invention is the versatile application possibilities of the individual construction parts, so that these are universal

ίο all occurring circumstances and demands can be customized. So the press and percussion piston to compact the concrete and to Serve to give impact pulses to the pipe; but it can also be used to displace the groundwater in the jacking pipe must be used before the concrete is poured. The piston-cylinder arrangements serve both to drive in the propulsion pipe and, in different ways, to retract the roller. Of the Compression and percussion pistons can be used with the piston-cylinder assemblies, with a crane, a drilling excavator or a similar drive according to the local Conditions are used. With eic and the same plunger and percussion piston can also be compressed Concrete piles manufactured with different pile diameters adapted to the required load-bearing capacities Before; for example, with a device designed for a pipe 90 cm in diameter also posts with for example 80, 75, 54, 60, 52 or 42 cm in diameter.

The drawing shows, for example, embodiments of the invention, and it means

F i g. 1 Section through a jacking pipe showing the compaction of the concrete and the extension of the jacking pipe serving device;

F i g. 2 side view according to FIG. 1;

F i g. 3 a further device used for the additional removal of groundwater from the pipe; and F i g. 4 illustration according to FIG. 3 when the groundwater is removed.

The F i g. 1 and 2 show one for pulling out a rammed concrete 27 to be compacted Propulsion pipe 2 serving device.

On the inside of the reinforcement 8 of the propulsion pipe 2, the annular groove 23 is arranged, which is the receptacle a snap ring 28 is used. Before the snap ring 28 is inserted into the annular groove 23, a press and Percussion piston 29 inserted into propulsion tube 2. The pressing and percussion piston 29 carries on its upper side a buffer 30 used for soundproofing.

Below the buffer 30 an annular groove 32 is arranged in the pressing and impact piston 29, in which a Sealing ring 31 is located. The bottom of the annular groove 32 is on axially parallel bores 33 with the underside of the Prelj and percussion piston 29 in connection. On the press and percussion piston 29 is one upwards directed hollow piston rod 34 which is sealed at its free end and which is attached to its free end carries a cross member 35, both sides of which EiiH ^ n 36 with the piston rods of the Piston-cylinder assemblies 21 are attached, the pistons of which are attached to the straps attached to the propulsion tube 2 20 are included. Like F i g. 2 shows, two pull cords 38 are attached to the hook 37, which over rounded beads 41 of the reinforcement 8 of the propulsion pipe 2 lead. On the propulsion pipe 2 are in diametrically opposite two tubular angled branches 39 attached, in which vertically upwardly directed legs 40 per se

known pressure relief valves 42 are arranged.

The pull cords 38 grip the valve tappet ·; 43 of the pressure relief valves 42 and hold their valve plates closed under the action of the traction cables 38 and the air pressure prevailing in the propulsion pipe 2. Let it go Upward stroke of the propulsion pipe 2 after the tension of the pull cables 38, the pressure relief valves 42 opened, and the air pressure prevailing in the propulsion pipe 2 is via the ventilation openings 44 relieved. When pulling out the propulsion pipe 2 is under the train acting in the pull-out direction Pull ropes 38. To compact the concrete 27, the piston-cylinder assemblies 21 act as the cross member 35 and with it the pressing and impact piston 29 is lowered, whereby between the pressing and impact piston 29 and the surface of the concrete 27, the atmospheric air located in the driving pipe 2 to a compressed air cushion is compressed, which has a compressing effect on the Be'.cn 27 and the Be'.cn 27 unicrhslb of the propulsion pipe 2 is pressed into the ground in the form of a bead, as at 46 in FIG. 2 is shown. With this one Downstroke acts the plunger and percussion piston 29 as a plunger on the concrete 27. This is followed by the Piston-cylinder assemblies 21 of the pressing and percussion piston 29 suddenly guided upwards into the Dash-dotted position, with the buffer 30 in abrupt manner when the air cushion in the tube 2 is relieved The stop on the snap ring 28 occurs and here the propulsion pipe 2 is given an upward stroke, which in its Size is limited by the pressure relief valves 42, since they open when the tension in the cables 38 is released. During the upstroke, the pressing and percussion piston 29 acts as a percussion piston. By intermittent downward and Upward movement of the press and percussion piston 29 takes place each time the press and percussion piston is actuated 29 a compaction of the concrete 27 and a blow in the pulling direction on the snap ring 28 of the Propulsion pipe 2. As a result, the propulsion pipe 2 held by the traction cables 38 is intermittently jerky pulled out, the concrete 27 forming superimposed outwardly directed beads 46 in the ground, by which the adhesion of the concrete 27 in the ground is significantly increased and thus the resilience of the compacted concrete pile is enlarged. In the propulsion pipe 2 is located below the pressing and Percussion piston 29 is a lockable ventilation port 45 which is opened at certain time intervals in order to to prevent the creation of a negative pressure in the propulsion pipe 2 as the extraction progresses.

3 and 4 show a modification of the device, d'e for the production of compacted Concrete piles in the groundwater is suitable. As shown in FIG. 3, the piston-cylinder arrangements are 21 on the tabs 20 of the propulsion tube 2 directed vertically downwards, with their piston rods are provided with support feet 49 resting on the ground. The press and percussion piston 47 is in arranged in the same way in the propulsion pipe 2 as in Fig. 1 with the exception that in the end of the Piston rod 48, the pressure relief valve 42 is arranged. the pull cords 38 of the hook 37 on its valve tappet attack. The pressing and percussion piston 47 works in the same way as described in FIG. 1, with the Exception that its intermittent downward and upward strokes are caused by slackening resp. Tighten the crane hook 37 so that the weight of the impact and plunger 47 can be so great got to. that on the one hand, when lowering, the build-up of an air cushion serving for compression takes place, and on the other hand, when the propulsion pipe 2 is suddenly lifted, an upward movement stroke is granted, with the pressure relief valve 42 as a security against excessive lifting of the Propulsion pipe 2 from the ground is used. In the press and percussion piston 47 is a through hole 51 arranged to which an air line 50 equipped with a valve 62 is connected, the maintenance the atmospheric pressure in the propulsion pipe 2 is used, the valve 62 being opened for a short time when a negative pressure develops in the propulsion pipe 2 while the propulsion pipe 2 is being pulled out. In the pressing and percussion piston 47, a further opening 52 is arranged, which during the Pulling out the propulsion pipe 2 is closed on both sides, and its function in the description of FIG. 4th is explained. The piston-cylinder assemblies 21

Pulling out the tensile force exerted by the pulling ropes 38, with the lifting of the propulsion pipe 2 appropriate intermediate layers can be arranged between the support feet 49 and the ground, to support the extension of the propulsion pipe 2 in the initial phase over 2 to 3 m.

The F i g. 4 shows the removal of the groundwater 61 from a driven-in driving pipe 2 using c or device according to FIG. 3. On the press and Impact piston 47 is connected to a concrete line 53.

the one on the underside of the plunger and percussion piston 47 by a made of rubber or ai's Styrofoam Ball 54 is closed. On the underside of the opening 52, which is open on both sides, is a flexible one Line 55 connected, which carries a basket 56 immersed in the groundwater 61 at its end. At the top of the opening 52, a shut-off valve 57 is arranged, which is through a Deflection roller 59 guided rope 58 can be brought into the open position.

4 (i When the jacking pipe 2 is driven in, the Compression and percussion piston 47 inserted in the manner described for FIG. I in the propulsion pipe 2 after the Concrete line 53 is closed with the ball 54. The press and percussion piston 47 is then lowered.

until an air cushion has formed between it and the surface of the groundwater 61. that the hydrostatic pressure of the groundwater 61 exceeds.

The shut-off valve 57 is then opened by the rope 58

opened, so that with further sinking plunger and percussion piston 47, the groundwater 61 through the than Overflow line serving line 55 is conveyed to the surface of the plunger and percussion piston 47. That Above the pressing and striker piston 47 accumulating groundwater 61 also weighs down the Press and percussion piston 47. so that it continues to sink, and all groundwater 61 below the piston over the Compression and percussion piston 47 through line 55 and opening 52 is promoted. Is all Groundwater 61. that is below the press and

Mi percussion piston 47 is located in the propulsion tube 2 removed in this way, the shut-off valve 57 is closed. Then through the concrete line 53 against the pressure of the existing below the compression and impact piston 47 air cushion 60 concrete in

r.5 pumped in the propulsion pipe 2, so that the air cushion 60 gradually with the plunger and percussion piston 47 is raised. The groundwater 61 located above the plunger and percussion piston 47 flows over here

the mouth of the propulsion pipe 2 to the outside. Once the driving pipe 2 is filled with concrete? 7 in this way, the concrete putty 53 is removed and the associated through-hole 51 is hermetically sealed at the top and the plunger and percussion piston is pulled out of the driving pipe 2 in order to remove the flexible line 55 and the P-breakthrough 52 to close. Then the proÖ and percussion piston 47 is reinserted into the propulsion pipe 2 and the snap ring 28 is inserted, and the compression and percussion piston 47 is, as in F ^; i g. 3 described

ben, moving intermittently downwards and upwards to on the one hand to compact the concrete 27 and on the other hand to apply blows to the drive pipe 2 via the snap ring 28 in the extraction direction. These intermittent stroke movement of the pressing and percussion piston 47 is continued until the propulsion pipe 2 is pulled out so far. that the traction cables 38 the propulsion pipe 2 alone completely out of the ground can move out.

To do this, 4 sheets of drawings

Claims (9)

Patent claims: 1. Process for the manufacture of piles from compacted concrete, in which a jacking pipe into the Soil driven, the soil is removed from the propulsion pipe, and the propulsion pipe with the Volume of the pile corresponding amount of concrete is filled, and for the purpose of compacting the Concrete above the concrete column located in the pipe an air cushion is formed, and the pipe in A mechanical force is applied to the pull-out direction, characterized in that that with the help of a piston arranged in the propulsion pipe, an under atmospheric pressure standing air cushion intermittently compressed and after each compression of the air cushion a mechanical impact impulse acting in the pull-out direction is given to the propulsion tube by the piston will. 2. Apparatus for performing the method according to claim 1, with one in the propulsion pipe in axially movable, a hollow piston rod carrying and one of the receptacle Sealing ring serving groove having plunger, characterized in that in the inner surface of the propulsion pipe (2) one of the receptacles for a snap ring (28) forming a stop serving groove (23) is provided, and that below the snap ring (28) the compression and impact piston (29) is arranged. 3. Apparatus according to claim 2, characterized in that the pressing and percussion piston (29) on its surface with a u-m snap ring (28) in engagement brir. _o bare, g ^ noise-dampening buffer (30) carries. 4. Apparatus according to claim 2 or 3, characterized in that the receiving a Sealing ring (31) serving annular groove (32) through arranged in its bottom, axial bores (33) the underside of the press and impact piston (29) is connected. 5. Device according to one of claims 2 to 4, characterized in that the piston rod of the compression and impact piston (29) at its free end is attached centrally to a cross member (35), the two ends (36) of which at the free ends of the Propulsion pipe (2) arranged piston-cylinder assemblies (21) are connected, and that on the Wall of the propulsion pipe (2) offset by 90 ° to the cross member, diametrically opposite one another, on which Hooks (37) of a crane pickable pull cables (38) are arranged. 6. Device according to one of claims 2 to 5, characterized in that for receiving the Pull ropes (38) on the wall of the propulsion pipe (2) at right angles upwardly directed tubular Branches (39) are attached, in the axially parallel legs (40) known per se, at Relief of the tension ropes (38) opening overpressure valves (42) are arranged. 7. The method according to claim I, characterized in that when reaching into the groundwater Jacking pipes before the concrete is placed below the press and percussion piston in the Propulsion pipe an air cushion is built up, and that the ground displaced by the air cushion water is brought via an overflow line above the plunger and percussion piston, and that after Displacement of the groundwater from the concrete jacking pipe against the pressure of the air cushion is introduced through the plunger and percussion piston into the propulsion pipe. 8. Apparatus for performing the method according to claim 7 with one in the propulsion pipe in axially movable, a hollow piston rod carrying and one of the receptacle Sealing ring serving groove having plunger, characterized in that in the pressing and percussion piston (47) a when the load is relieved Pull cords (37) opening overpressure valve (42) is provided, and that it has a penetrating, lockable through-hole (52), which at its end facing the groundwater (61) has a Carries a flexible pipe (55) reaching below the water level, and also a penetrating pipe (55) has lockable concrete line (53) and a lockable air line (50) penetrating it 9. Apparatus according to claim 8, characterized in that the on the tabs (20) of the Propulsion pipe (2) attached piston-cylinder assemblies (21) are pivoted downward in such a way that that they, me with their free ends on the floor with a liner, are variable in height Support the support feet (49).